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| Naji, M. |
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| Motta, Antonella |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Giri, Dr. Jayant
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Publications (7/7 displayed)
- 2024Fuzzy logic-driven genetic algorithm strategies for ultrasonic welding of heterogeneous metal sheetscitations
- 2024Optimizing process parameters to minimize wear-induced material loss in bronze-based hybrid metal matrix composites using the Taguchi methodcitations
- 2024Effect of copper addition on mechanical properties and microstructures of LM25 cast alloyscitations
- 2024Exploring the strength and durability of hemp fiber reinforced moringa bioresin composites for skateboard applicationscitations
- 2024Opportunities and challenges of bamboo fiber composites in additive manufacturing: A comprehensive reviewcitations
- 2024Surface modification of basalt fibers and its effect on the mechanical properties of basalt fiber/epoxy composite laminatescitations
- 2024Investigation of chemically treated jute/kenaf/glass fiber with TiO2 nano-filler for tensile and impact characteristicscitations
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article
Optimizing process parameters to minimize wear-induced material loss in bronze-based hybrid metal matrix composites using the Taguchi method
Abstract
<jats:p>Metal matrix composites have captured considerable interest in tribological applications, largely owing to their remarkable characteristics, which include a high strength-to-weight ratio and a low wear rate. This investigation delves into the exploration of hybrid metal matrix composites, where cobalt and chromium play the role of reinforcing agents within a bronze foundation. These composites were manufactured through a powder metallurgy process, utilizing cobalt and chromium metal powders with a particle size of 40 μm. Various weight percentage ratios (2.5%, 5.0%, and 7.5%) were utilized to create these composite specimens. To assess their tribological performance, the composite samples were subjected to a sliding wear test using a pin on disk machine, following the ASTM G99 standards. The wear characteristics of these composites were analyzed using the Taguchi method, considering parameters such as the applied load, speed, reinforcement percentage, and sliding distance. In addition, we conducted an analysis of variance on the collected data. To analyze the wear behavior of these hybrid metal matrix composites based on bronze, we utilized both multiple linear regression analysis and a signal-to-noise ratio assessment. The results indicate that the inclusion of cobalt and chromium metal powders as reinforcement materials enhances the tribological properties of the bronze matrix material.</jats:p>